Network structure and dynamics of effective models of non-equilibrium quantum transport

Abstract: Across all scales of the physical world, dynamical systems can often be usefully represented as abstract networks that encode the system's units and interunit interactions. Understanding how physical rules shape the topological structure of those networks can clarify a system's function and enhance our ability to design, guide, or control its behavior. In the emerging area of quantum network science, a key challenge lies in distinguishing between the topological properties that reflect a system's underlying ph… Show more